TECH. CORP.
SPECIFICATIONS
CUSTOMER :
SAMPLE CODE : SH720128T003-ZBC02
MASS PRODUCTION CODE : PH720128T003-ZBC02
SAMPLE VERSION : 01
SPECIFICATIONS EDITION : 004
DRAWING NO. (Ver.) : LMD-PH720128T003-ZBC02 (Ver.002)
PACKAGING NO. (Ver.) : PKG-PH720128T003-ZBC02(Ver.001)
Customer Approved
Date:
Approved Checked Designer
黃秋源黃秋源黃秋源黃秋源
Oliver Huang
石建莊石建莊石建莊石建莊
Stone Shin
劉俊毅劉俊毅劉俊毅劉俊毅
Terry Liu
□ Preliminary specification for design input
■ Specification for sample approval
POWERTIP TECH. CORP.
Headquarters: No.8, 6th Road, Taichung Industrial Park,
Taichung, Taiwan 台中市 407工業區六路 8號
TEL: 886-4-2355-8168
FAX: 886-4-2355-8166
E-mail: [email protected]
Http://www.powertip.com.tw
NO.PT-A-005-8
PH720128T003-ZBC02 Page2 SAMPLE Ver.01 SPEC Edi.004
History of Version
Date (mm / dd / yyyy)
Ver. Edi. Description Page Design by
06/08/2017 01 001 New Drawing. - Terry
09/12/2017 01 002 New Sample - Terry
01/16/2018 01 003 Modify Sample Drawing - Terry
04/30/2018 01 004 Add AC Electrical Characteristics&Modify Initial
code 14、15 Terry
Total: 44Page
PH720128T003-ZBC02 Page3 SAMPLE Ver.01 SPEC Edi.004
Contents
1. SPECIFICATIONS 1.1 Features 1.2 Mechanical Specifications 1.3 Absolute Maximum Ratings 1.4 DC Electrical Characteristics 1.5 Optical Characteristics 1.6 Backlight Characteristics
1.7 Touch Panel Characteristics
2. MODULE STRUCTURE 2.1 Counter Drawing
2.2 Interface Pin Description 2.3 AC Characteristics 2.4 Refer Initial Code
3. QUALITY ASSURANCE SYSTEM 3.1 Quality Assurance Flow Chart 3.2 Inspection Specification
4. RELIABILITY TEST 4.1 Reliability Test Condition
5. PRECAUTION RELATING PRODUCT HANDLING 5.1 Safety 5.2 Handling 5.3 Storage 5.4 Terms of Warranty
Appendix::::LCM Drawing.
LCM Packaging Specifications
PH720128T003-ZBC02 Page4 SAMPLE Ver.01 SPEC Edi.004
1. SPECIFICATIONS
1.1 Features
Item Standard Value
Display Type 720 * (RGB) * 1280
LCD Type IPS TFT , Normally Black , Transmissive type
Touch panel True Multi-Touch Capacitive Touch Panel
True Multi-touch with up to 10 Points of Absolution
Screen size(Inch) 7.0 Inch
Backlight Type LED B/L
Weight 177.8 g
Control IC ILI9881C (TFT Unit)
Interface MIPI Interface (TFT Unit)
ROHS
THIS PRODUCT CONFORMS THE ROHS OF PTC
Detail information please refer website :
http://www.powertip.com.tw/news_detail.php?Key=1&cID=1
1.2 Mechanical Specifications
Item Standard Value Unit
Outline Dimension 189.32 (W) * 120.24 (L) * 5.31(H) mm
Viewing Area 153.32 (W) * 90.21 (L) mm
Active Area 152.32 (W) * 89.208 (L) mm
Note : For detailed information please refer to LCM drawing.
PH720128T003-ZBC02 Page5 SAMPLE Ver.01 SPEC Edi.004
1.3 Absolute Maximum Ratings
Item Symbol Condition Min. Max. Unit Remark
Supply Voltage VDD
GND=0 -0.3 +3.8 V
- VCI -0.3 +7.0 V
Operating Temperature TOP - -20 +70 °C
Storage Temperature TST - -30 +80 °C
1.4 DC Electrical Characteristics
GND = 0V, Ta = 25°C
Item Symbol Min. Typ. Max. Unit Remark
Supply Voltage VDD 3.0 3.3 3.6
V Note2
VCI 3.0 3.3 3.6
Input signal Voltage
VIH 0.7*VDD - VDD
VIL -0.3 - 0.3*VDD
VOH 0.8*VDD - VDD
VOL 0 - 0.2*VDD
Supply Current IVDD - 20mA 35mA Note1
IVCI - 25mA 50mA Note1
Note1: Maximum current display.
Note2 :For DSI DC level please refer to driver IC ILI9881C Specifications
PH720128T003-ZBC02 Page6 SAMPLE Ver.01 SPEC Edi.004
1.5 Optical Characteristics
VDD= 3.3 V, Ta=25°C
Item Symbol Condition Min. Typ. Max. unit
Response time Tr +Tf Ta = 25°C θX, θY = 0°
- 35 40 ms Note 2
Viewing angle
Top θY+
CR ≥ 10
80 85 -
Deg. Note 4 Bottom θY- 80 85 -
Left θX- 80 85 -
Right θX+ 80 85 -
Contrast ratio CR
Ta = 25°C θX , θY = 0°
900 1200 - Note 3
Color of CIE Coordinate
(With B/L & touch panel)
White X 0.308 0.358 0.408
- Note1
Y 0.315 0.365 0.415
Red X 0.584 0.634 0.684
Y 0.273 0.323 0.373
Green X 0.289 0.339 0.389
Y 0.534 0.584 0.634
Blue X 0.094 0.144 0.194
Y 0.069 0.119 0.169
Average Brightness
Pattern=white display
(With B/L & touch panel)*2
IV
IF=90mA
430 500 - cd/m2 Note1
Uniformity
(With B/L & touch panel)*1 △B 70 - - % Note1
PH720128T003-ZBC02 Page7 SAMPLE Ver.01 SPEC Edi.004
Note 1:
*1:△B=B(min) / B(max) * 100%
*2:Measurement Condition for Optical Characteristics:
a:Environment: 25 ±℃ 5℃ / 60±20%R.H,no wind,dark room below 10 Lux at typical lamp
current and typical operating frequency.
b:Measurement Distance: 500 ± 50 ㎜ ,(θ= 0°)
c:Equipment: TOPCON BM-7 fast,(field 1°),after 10 minutes operation.
d:The uncertainty of the C.I.E coordinate measurement ±0.01,Average Brightness ± 4%
To be measured at the center area of panel with a viewing cone of 1° by Topcon
luminance meter BM-7, after 10 minutes operation (module)
Note2: Definition of response time:
The output signals of photo detector are measured when the input signals are changed
from “black” to “white”(falling time) and from “white” to “black”(rising time), respectively.
The response time is defined as the time interval between the 10% and 90% of
Amplitudes.
Refer to figure as below:
Normally White
1 2 3
6 5 4
7 8 9
VIEW AREA
LCM
θ θ
Colorimeter=BM-7 fast
500 ㎜
100%
90%
10%
0%
Sig
nal (R
elative v
alue)
"Black"
Tr Tf
"White" "White"
PH720128T003-ZBC02 Page8 SAMPLE Ver.01 SPEC Edi.004
Normally Black
Note3: Definition of contrast ratio:
Contrast ratio is calculated with the following formula
Photo detector output when LCD is at “White” state
Contrast ratio (CR) =
Photo detector output when LCD is at “Black” state
Note4: Definition of viewing angle:
Refer to figure as below:
θ X - = 90 °θ Y - = 90 °
X -Y -
θ Y + = 90 °θ X + = 90 °X +
θ Y - θ Y +θ X - θ X + Y + θ X = θ Y = 0°
ΦΦ = 0 °6 HΦ = 270 °
Φ = 90 °Φ = 180 °12H
100%90%
10%0%
Sig
nal (R
ela
tive v
alu
e)
"Black"
Tr Tf
"White""Black"
PH720128T003-ZBC02 Page9 SAMPLE Ver.01 SPEC Edi.004
1.6 Backlight Characteristics
Electrical / Optical Characteristics
Item Symbol Min. Typ. Max. Unit Remark
Forward Voltage Vf 16.2 19.2 21.0 V Ta=25°C
IF=90mA Life time - 20000 - - Hr
LED Backlight Circuit:
A
K
R=5.1 ohm R=5.1 ohm R=5.1 ohm
PH720128T003-ZBC02 Page10 SAMPLE Ver.01 SPEC Edi.004
1.7 Touch Panel Characteristics
Item Standard Value
Touch Panel Size 7”
Touch type Projective Capacitive Touch Panel
Input Method True Multi-touch with up to 10 Points of Absolution
X and Y Coordinates
IC FT5426
Output Interface I2C
I2C Address 0X70
I2C Address
Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 1 1 1 0 0 0 0 R/W
Bit 0: 0 for Write / 1 for Read
Mechanical Specifications
Item Standard Value Unit
Viewing Area 153.32 (W) * 90.21 (L) mm
Number of sensing channel 25(TX) * 15 (RX)
Absolute Maximum Ratings
Item Symbol Condition Min. Max. Unit
Supply voltage TPVDD - 2.7 +3.6 V
Operating Temperature TOP - -20 +70 °C
Storage Temperature TST - -30 +80 °C
DC Electrical Characteristics
Item Symbol Condition Min. Typ. Max. Unit
Power Supply Voltage TPVDD
Ta=25°C
2.7 3.3 3.6 V
Input High Voltage VIH 0.7 *
TPVDD - TPVDD V
Input Low Voltage VIL -0.3 - 0.3*
TPVDD V
PH720128T003-ZBC02 Page11 SAMPLE Ver.01 SPEC Edi.004
2. MODULE STRUCTURE
2.1 Counter Drawing
2.1.1 LCM Mechanical Diagram
* See Appendix
2.1.2 Block Diagram
PH720128T003-ZBC02 Page12 SAMPLE Ver.01 SPEC Edi.004
2.2 Interface Pin Description
Interface for TFT display :
Pin# Name DESCRIPTION
1 NC No connection.
2 K Power for LED backlight cathode input.
3 A Power for LED backlight anode input.
4 NC No connection.
5 NC No connection.
6 GND Ground
7 NC No connection.
8 NC No connection.
9 VDD Power supply for internal logic regulator.
10 VCI Power supply for analog circuit.
11 GND Ground.
12 LCD_RESX The external reset input Initializes the chip with a low input. Be sure to
execute a power-on reset after supplying power.
13 LCD_TE Tearing effect output pin.
14 GND Ground.
15 CLK_P MIPI DSI differential clock pair
16 CLK_N MIPI DSI differential clock pair
17 GND Ground.
18 D1_P MIPI DSI differential data pair. (Data lane 1)
19 D1_N MIPI DSI differential data pair. (Data lane 1)
20 GND Ground.
21 D0_P MIPI DSI differential data pair. (Data lane 0)
22 D0_N MIPI DSI differential data pair. (Data lane 0)
23 GND Ground.
24 NC No connection.
PH720128T003-ZBC02 Page13 SAMPLE Ver.01 SPEC Edi.004
Interface for CTP:
Pin# Name DESCRIPTION
1 RST RESET.
2 SCL I2C Data.
3 SDA I2C Data.
4 INT The interrupt from the CTP to the Host.
5 TPVDD Power.
6 GND Ground.
PH720128T003-ZBC02 Page14 SAMPLE Ver.01 SPEC Edi.004
2.3 AC Electrical Characteristics
Timing for DSI video mode
PH720128T003-ZBC02 Page15 SAMPLE Ver.01 SPEC Edi.004
2.4 Refer Initial Code
Void ILI9881C_D-AM30841F-00_Initial Code(Void)
{
LCD_nRESET = 1;
Delayms(1); // Delay 1ms
LCD_nRESET = 0;
Delayms(1); // Delay 1ms // This Delay time is necessary
LCD_nRESET = 1;
Delayms(10); // Delay 120 ms
//************* Start Initial Sequence **********//
LCD_ILI9881C_CMD(0xFF);
LCD_ILI9881C_INDEX(0x98);
LCD_ILI9881C_INDEX(0x81);
LCD_ILI9881C_INDEX(0x03);
LCD_ILI9881C_CMD(0x01);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x02);
PH720128T003-ZBC02 Page16 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x03);
LCD_ILI9881C_INDEX(0x55);
LCD_ILI9881C_CMD(0x04);
LCD_ILI9881C_INDEX(0x13);
LCD_ILI9881C_CMD(0x05);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x06);
LCD_ILI9881C_INDEX(0x06);
LCD_ILI9881C_CMD(0x07);
LCD_ILI9881C_INDEX(0x01);
LCD_ILI9881C_CMD(0x08);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x09);
LCD_ILI9881C_INDEX(0x01);
LCD_ILI9881C_CMD(0x0A);
LCD_ILI9881C_INDEX(0x01);
LCD_ILI9881C_CMD(0x0B);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x0C);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x0D);
PH720128T003-ZBC02 Page17 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x0E);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x0F);
LCD_ILI9881C_INDEX(0x18);
LCD_ILI9881C_CMD(0x10);
LCD_ILI9881C_INDEX(0x18);
LCD_ILI9881C_CMD(0x11);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x12);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x13);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x14);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x15);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x16);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x17);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x18);
PH720128T003-ZBC02 Page18 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x19);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x1A);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x1B);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x1C);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x1D);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x1E);
LCD_ILI9881C_INDEX(0x44);
LCD_ILI9881C_CMD(0x1F);
LCD_ILI9881C_INDEX(0x80);
LCD_ILI9881C_CMD(0x20);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x21);
LCD_ILI9881C_INDEX(0x03);
LCD_ILI9881C_CMD(0x22);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x23);
PH720128T003-ZBC02 Page19 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x24);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x25);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x26);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x27);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x28);
LCD_ILI9881C_INDEX(0x33);
LCD_ILI9881C_CMD(0x29);
LCD_ILI9881C_INDEX(0x03);
LCD_ILI9881C_CMD(0x2A);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x2B);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x2C);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x2D);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x2E);
PH720128T003-ZBC02 Page20 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x2F);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x30);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x31);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x32);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x33);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x34);
LCD_ILI9881C_INDEX(0x04);
LCD_ILI9881C_CMD(0x35);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x36);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x37);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x38);
LCD_ILI9881C_INDEX(0x01);
LCD_ILI9881C_CMD(0x39);
PH720128T003-ZBC02 Page21 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x3A);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x3B);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x3C);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x3D);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x3E);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x3F);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x40);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x41);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x42);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x43);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x44);
PH720128T003-ZBC02 Page22 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x50);
LCD_ILI9881C_INDEX(0x01);
LCD_ILI9881C_CMD(0x51);
LCD_ILI9881C_INDEX(0x23);
LCD_ILI9881C_CMD(0x52);
LCD_ILI9881C_INDEX(0x45);
LCD_ILI9881C_CMD(0x53);
LCD_ILI9881C_INDEX(0x67);
LCD_ILI9881C_CMD(0x54);
LCD_ILI9881C_INDEX(0x89);
LCD_ILI9881C_CMD(0x55);
LCD_ILI9881C_INDEX(0xAB);
LCD_ILI9881C_CMD(0x56);
LCD_ILI9881C_INDEX(0x01);
LCD_ILI9881C_CMD(0x57);
LCD_ILI9881C_INDEX(0x23);
LCD_ILI9881C_CMD(0x58);
LCD_ILI9881C_INDEX(0x45);
LCD_ILI9881C_CMD(0x59);
LCD_ILI9881C_INDEX(0x67);
LCD_ILI9881C_CMD(0x5A);
PH720128T003-ZBC02 Page23 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x89);
LCD_ILI9881C_CMD(0x5B);
LCD_ILI9881C_INDEX(0xAB);
LCD_ILI9881C_CMD(0x5C);
LCD_ILI9881C_INDEX(0xCD);
LCD_ILI9881C_CMD(0x5D);
LCD_ILI9881C_INDEX(0xEF);
LCD_ILI9881C_CMD(0x5E);
LCD_ILI9881C_INDEX(0x11);
LCD_ILI9881C_CMD(0x5F);
LCD_ILI9881C_INDEX(0x14);
LCD_ILI9881C_CMD(0x60);
LCD_ILI9881C_INDEX(0x15);
LCD_ILI9881C_CMD(0x61);
LCD_ILI9881C_INDEX(0x0F);
LCD_ILI9881C_CMD(0x62);
LCD_ILI9881C_INDEX(0x0D);
LCD_ILI9881C_CMD(0x63);
LCD_ILI9881C_INDEX(0x0E);
LCD_ILI9881C_CMD(0x64);
LCD_ILI9881C_INDEX(0x0C);
LCD_ILI9881C_CMD(0x65);
PH720128T003-ZBC02 Page24 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x06);
LCD_ILI9881C_CMD(0x66);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x67);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x68);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x69);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x6A);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x6B);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x6C);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x6D);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x6E);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x6F);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x70);
PH720128T003-ZBC02 Page25 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x71);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x72);
LCD_ILI9881C_INDEX(0x01);
LCD_ILI9881C_CMD(0x73);
LCD_ILI9881C_INDEX(0x08);
LCD_ILI9881C_CMD(0x74);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x75);
LCD_ILI9881C_INDEX(0x14);
LCD_ILI9881C_CMD(0x76);
LCD_ILI9881C_INDEX(0x15);
LCD_ILI9881C_CMD(0x77);
LCD_ILI9881C_INDEX(0x0F);
LCD_ILI9881C_CMD(0x78);
LCD_ILI9881C_INDEX(0x0D);
LCD_ILI9881C_CMD(0x79);
LCD_ILI9881C_INDEX(0x0E);
LCD_ILI9881C_CMD(0x7A);
LCD_ILI9881C_INDEX(0x0C);
LCD_ILI9881C_CMD(0x7B);
PH720128T003-ZBC02 Page26 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x08);
LCD_ILI9881C_CMD(0x7C);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x7D);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x7E);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x7F);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x80);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x81);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x82);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x83);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x84);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x85);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x86);
PH720128T003-ZBC02 Page27 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0x87);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x88)
LCD_ILI9881C_INDEX(0x01);
LCD_ILI9881C_CMD(0x89);
LCD_ILI9881C_INDEX(0x06);
LCD_ILI9881C_CMD(0x8A);
LCD_ILI9881C_INDEX(0x02);
LCD_ILI9881C_CMD(0xFF);
LCD_ILI9881C_INDEX(0x98);
LCD_ILI9881C_INDEX(0x81);
LCD_ILI9881C_INDEX(0x04);
LCD_ILI9881C_CMD(0x6C);
LCD_ILI9881C_INDEX(0x15);
LCD_ILI9881C_CMD(0x6E);
LCD_ILI9881C_INDEX(0x2A);
LCD_ILI9881C_CMD(0x6F);
LCD_ILI9881C_INDEX(0x33);
LCD_ILI9881C_CMD(0x3A);
LCD_ILI9881C_INDEX(0x24);
LCD_ILI9881C_CMD(0x8D);
PH720128T003-ZBC02 Page28 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x14);
LCD_ILI9881C_CMD(0x87);
LCD_ILI9881C_INDEX(0xBA);
LCD_ILI9881C_CMD(0x26);
LCD_ILI9881C_INDEX(0x76);
LCD_ILI9881C_CMD(0xB2);
LCD_ILI9881C_INDEX(0xD1);
LCD_ILI9881C_CMD(0xB5);
LCD_ILI9881C_INDEX(0xD7);
LCD_ILI9881C_CMD(0x35);
LCD_ILI9881C_INDEX(0x1F);
LCD_ILI9881C_CMD(0xFF);
LCD_ILI9881C_INDEX(0x98);
LCD_ILI9881C_INDEX(0x81);
LCD_ILI9881C_INDEX(0x01);
LCD_ILI9881C_CMD(0x22);
LCD_ILI9881C_INDEX(0x0A);
LCD_ILI9881C_CMD(0x53);
LCD_ILI9881C_INDEX(0x72);
LCD_ILI9881C_CMD(0x55);
LCD_ILI9881C_INDEX(0x77);
LCD_ILI9881C_CMD(0x50);
PH720128T003-ZBC02 Page29 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0xA6);
LCD_ILI9881C_CMD(0x51);
LCD_ILI9881C_INDEX(0xA6);
LCD_ILI9881C_CMD(0x31);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x60);
LCD_ILI9881C_INDEX(0x20);
LCD_ILI9881C_CMD(0xA0);
LCD_ILI9881C_INDEX(0x08);
LCD_ILI9881C_CMD(0xA1);
LCD_ILI9881C_INDEX(0x1A);
LCD_ILI9881C_CMD(0xA2);
LCD_ILI9881C_INDEX(0x2A);
LCD_ILI9881C_CMD(0xA3);
LCD_ILI9881C_INDEX(0x14);
LCD_ILI9881C_CMD(0xA4);
LCD_ILI9881C_INDEX(0x17);
LCD_ILI9881C_CMD(0xA5);
LCD_ILI9881C_INDEX(0x2B);
LCD_ILI9881C_CMD(0xA6);
LCD_ILI9881C_INDEX(0x1D);
LCD_ILI9881C_CMD(0xA7);
PH720128T003-ZBC02 Page30 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x20);
LCD_ILI9881C_CMD(0xA8);
LCD_ILI9881C_INDEX(0x9D);
LCD_ILI9881C_CMD(0xA9);
LCD_ILI9881C_INDEX(0x1C);
LCD_ILI9881C_CMD(0xAA);
LCD_ILI9881C_INDEX(0x29);
LCD_ILI9881C_CMD(0xAB);
LCD_ILI9881C_INDEX(0x8F);
LCD_ILI9881C_CMD(0xAC);
LCD_ILI9881C_INDEX(0x20);
LCD_ILI9881C_CMD(0xAD);
LCD_ILI9881C_INDEX(0x1F);
LCD_ILI9881C_CMD(0xAE);
LCD_ILI9881C_INDEX(0x4F);
LCD_ILI9881C_CMD(0xAF);
LCD_ILI9881C_INDEX(0x23);
LCD_ILI9881C_CMD(0xB0);
LCD_ILI9881C_INDEX(0x29);
LCD_ILI9881C_CMD(0xB1);
LCD_ILI9881C_INDEX(0x56);
LCD_ILI9881C_CMD(0xB2);
PH720128T003-ZBC02 Page31 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x66);
LCD_ILI9881C_CMD(0xB3);
LCD_ILI9881C_INDEX(0x39);
LCD_ILI9881C_CMD(0xC0);
LCD_ILI9881C_INDEX(0x08);
LCD_ILI9881C_CMD(0xC1);
LCD_ILI9881C_INDEX(0x1A);
LCD_ILI9881C_CMD(0xC2);
LCD_ILI9881C_INDEX(0x2A);
LCD_ILI9881C_CMD(0xC3);
LCD_ILI9881C_INDEX(0x15);
LCD_ILI9881C_CMD(0xC4);
LCD_ILI9881C_INDEX(0x17);
LCD_ILI9881C_CMD(0xC5);
LCD_ILI9881C_INDEX(0x2B);
LCD_ILI9881C_CMD(0xC6);
LCD_ILI9881C_INDEX(0x1D);
LCD_ILI9881C_CMD(0xC7);
LCD_ILI9881C_INDEX(0x20);
LCD_ILI9881C_CMD(0xC8);
LCD_ILI9881C_INDEX(0x9D);
LCD_ILI9881C_CMD(0xC9);
PH720128T003-ZBC02 Page32 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x1D);
LCD_ILI9881C_CMD(0xCA);
LCD_ILI9881C_INDEX(0x29);
LCD_ILI9881C_CMD(0xCB);
LCD_ILI9881C_INDEX(0x8F);
LCD_ILI9881C_CMD(0xCC);
LCD_ILI9881C_INDEX(0x20);
LCD_ILI9881C_CMD(0xCD);
LCD_ILI9881C_INDEX(0x1F);
LCD_ILI9881C_CMD(0xCE);
LCD_ILI9881C_INDEX(0x4F);
LCD_ILI9881C_CMD(0xCF);
LCD_ILI9881C_INDEX(0x24);
LCD_ILI9881C_CMD(0xD0);
LCD_ILI9881C_INDEX(0x29);
LCD_ILI9881C_CMD(0xD1);
LCD_ILI9881C_INDEX(0x56);
LCD_ILI9881C_CMD(0xD2);
LCD_ILI9881C_INDEX(0x66);
LCD_ILI9881C_CMD(0xD3);
LCD_ILI9881C_INDEX(0x39);
LCD_ILI9881C_CMD(0xFF);
PH720128T003-ZBC02 Page33 SAMPLE Ver.01 SPEC Edi.004
LCD_ILI9881C_INDEX(0x98);
LCD_ILI9881C_INDEX(0x81);
LCD_ILI9881C_INDEX(0x00);
LCD_ILI9881C_CMD(0x11);
LCD_ILI9881C_INDEX(0x00);
Void ILI9881C_EnterSleep_Code(Void)
{
LCD_ILI9881C_CMD(0x28) //Display oFF
Delayms(20);
LCD_ILI9881C_CMD(0x10); // Internal oscillator will be stopped
Delayms(120);
}
Void ILI9881C_ExitSleep_Code(Void)
{
LCD_ILI9881C_CMD(0x11); // Sleep Out
Delayms(120);
LCD_ILI9881C_CMD(0x29) //Display on
Delayms(20);
}
3. QUALITY ASSURANCE SYSTEM
PH720128T003-ZBC02 Page34 SAMPLE Ver.01 SPEC Edi.004
3.1 Quality Assurance Flow Chart
Item Customer Sales R&D Q.A Manufactu
ring
Product
control Purchase
Inventory
control
Marketing
&
Design
Sample
Approval
Pilot
Run
&
Mass
Product
Ship
Out
OK
Request
Info Survey
Inquiry Project evaluation
Project Validation
Quote OK
NG
Contract
Design check
Sample test
Verification
Sample approval
NG
NG
Pilot run & Reliability test
Verification
Specification preparation
OK
Mass production
Inspection NG OK
Shipment
NG
Ship out
OK
PH720128T003-ZBC02 Page35 SAMPLE Ver.01 SPEC Edi.004
Item Customer Sales R&D Q.A Manufact
uring
Product
control Purchase
Inventory
control
Sales
Service
Q.A
Activity
1. ISO 9001 Maintenance Activities 2. Process improvement proposal 3. Equipment calibration 4. Education And Training Activities 5. Standardization Management
Info Claim
Failure analysis
Corrective action
Tracking
Analysis report
PH720128T003-ZBC02 Page36 SAMPLE Ver.01 SPEC Edi.004
3.2. Inspection Specification
PH720128T003-ZBC02 Page37 SAMPLE Ver.01 SPEC Edi.004
PH720128T003-ZBC02 Page38 SAMPLE Ver.01 SPEC Edi.004
PH720128T003-ZBC02 Page39 SAMPLE Ver.01 SPEC Edi.004
PH720128T003-ZBC02 Page40 SAMPLE Ver.01 SPEC Edi.004
PH720128T003-ZBC02 Page41 SAMPLE Ver.01 SPEC Edi.004
PH720128T003-ZBC02 Page42 SAMPLE Ver.01 SPEC Edi.004
PH720128T003-ZBC02 Page43 SAMPLE Ver.01 SPEC Edi.004
4. RELIABILITY TEST
4.1 Reliability Test Condition
NO. TEST ITEM TEST CONDITION
1111 High Temperature
Storage Test Keep in 80808080 ±±±±5555℃℃℃℃ 96969696 hrs
2222 Low Temperature
Storage Test Keep in ----30303030 ±±±±5555℃℃℃℃ 96 96 96 96 hrs
3333 High Temperature /
High Humidity
Storage Test
Keep in 60 60 60 60 ℃℃℃℃ / 90909090% R.H duration for 96969696 hrs
(Excluding the polarizer)
4444 Temperature Cycling
Storage Test
----30303030℃℃℃℃ →→→→ +25+25+25+25℃℃℃℃ →→→→ 80808080℃℃℃℃ →→→→ +25+25+25+25℃℃℃℃
(30303030mins) (5555mins) (30303030mins) (5555mins)
10101010 Cycle
5555 ESD Test
Air Discharge:
Apply 2222 KV with 5555 times
Discharge for each polarity +/-
Contact Discharge:
Apply 250 250 250 250 V with 5555 times
discharge for each polarity +/-
1. Temperature ambiance : 15151515℃℃℃℃~~~~35353535℃℃℃℃
2. Humidity relative : 30303030%~~~~60606060%
3. Energy Storage Capacitance(Cs+Cd) : 150150150150pF±±±±10101010%
4. Discharge Resistance(Rd) : 330330330330ΩΩΩΩ±±±±10101010%
5. Discharge, mode of operation :
Single Discharge (time between successive discharges at least 1 sec)
(Tolerance if the output voltage indication : ±±±±5555%)
6666 Vibration Test
(Packaged)
1. Sine wave 10101010~~~~55555555 Hz frequency (1111 min/sweep)
2. The amplitude of vibration :1.51.51.51.5 mm
3. Each direction (X、、、、Y、、、、Z) duration for 2222 Hrs
7777 Drop Test
(Packaged)
Drop Direction :※※※※1 corner / 3333 edges / 6666 sides each 1111time
Packing Weight (Kg) Drop Height (cm)
0 ~ 45.40 ~ 45.40 ~ 45.40 ~ 45.4 122122122122
45.4 ~ 90.845.4 ~ 90.845.4 ~ 90.845.4 ~ 90.8 76767676
90.8 ~ 45490.8 ~ 45490.8 ~ 45490.8 ~ 454 61616161
Over 454Over 454Over 454Over 454 46464646
◎◎◎◎Result Evaluation Criteria :Result Evaluation Criteria :Result Evaluation Criteria :Result Evaluation Criteria :
Under the display quality test conditions with normal operations with normal operation state. Under the display quality test conditions with normal operations with normal operation state. Under the display quality test conditions with normal operations with normal operation state. Under the display quality test conditions with normal operations with normal operation state.
Do not change these conditions as such changes may affect practical display function.Do not change these conditions as such changes may affect practical display function.Do not change these conditions as such changes may affect practical display function.Do not change these conditions as such changes may affect practical display function.
(Normal operation state)(Normal operation state)(Normal operation state)(Normal operation state)
TemperatureTemperatureTemperatureTemperature::::+20~30+20~30+20~30+20~30°°°°CCCC
HumidityHumidityHumidityHumidity::::50~70%50~70%50~70%50~70%
Atmospheric pressureAtmospheric pressureAtmospheric pressureAtmospheric pressure::::86~106Kpa86~106Kpa86~106Kpa86~106Kpa
(Ver.B01)
PH720128T003-ZBC02 Page44 SAMPLE Ver.01 SPEC Edi.004
5. PRECAUTION RELATING PRODUCT HANDLING 5.1 SAFETY
5.1.1 If the LCD panel breaks , be careful not to get the liquid crystal to touch your skin.
5.1.2 If the liquid crystal touches your skin or clothes , please wash it off immediately by
using soap and water.
5.2 HANDLING
5.2.1 Avoid any strong mechanical shock which can break the glass.
5.2.2 Avoid static electricity which can damage the CMOS LSI—When working with the
module , be sure to ground your body and any electrical equipment you may be using.
5.2.3 Do not remove the panel or frame from the module.
5.2.4 The polarizing plate of the display is very fragile. So , please handle it very
carefully ,do not touch , push or rub the exposed polarizing with anything harder
than an HB pencil lead (glass , tweezers , etc.)
5.2.5 Do not wipe the polarizing plate with a dry cloth , as it may easily scratch the
surface of plate.
5.2.6 Do not touch the display area with bare hands , this will stain the display area.
5.2.7 Do not use ketonics solvent & aromatic solvent. Use with a soft cloth soaked with
a cleaning naphtha solvent.
5.2.8 To control temperature and time of soldering is 320±10℃and 3-5 sec.
5.2.9 To avoid liquid (include organic solvent) stained on LCM .
5.3 STORAGE 5.3.1 Store the panel or module in a dark place where the temperature is 25℃ ±5℃
and the humidity is below 65% RH.
5.3.2 Do not place the module near organics solvents or corrosive gases.
5.3.3 Do not crush , shake , or jolt the module.
5.4 TERMS OF WARRANTY
5.4.1 Applicable warrant period
The period is within thirteen months since the date of shipping out under normal
using and storage conditions.
5.4.2 Unaccepted responsibility
This product has been manufactured to your company’s specification as a part for
use in your company’s general electronic products. It is guaranteed to perform
according to delivery specifications. For any other use apart from general
electronic equipment , we cannot take responsibility if the product is used in
nuclear power control equipment , aerospace equipment , fire and security
systems or any other applications in which there is a direct risk to human life
and where extremely high levels of reliability are required.
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